System and Method for Finite Element Imaging Sensor Devices

1. A processing system for an input device, the processing system comprising: a transmitter module including transmitter circuitry, the transmitter module configured to drive a first contact, a second contact, and a third contact of a first transmitter electrode, wherein the first contact is disposed between the second contact and the third contact, and the transmitter module is configured to produce a first voltage gradient between the first contact and the second contact, the transmitter electrode comprising the first contact, the second contact, and the third contact, and to produce a second voltage gradient between the first contact and the third contact; a receiver module, the receiver module configured to receive, with a first receiver electrode, a first resulting signal comprising effects of the first voltage gradient, and to receive, with a second receiver electrode, a second resulting signal comprising effects of the second voltage gradient, wherein the first receiver electrode and the second receiver electrodes are distinct from the first contact, the second contact, and the third contact; and a determination module configured to determine positional information for a first input object located within a sensing region based on the first resulting signal and the second resulting signal.

2. The processing system of claim 1 , wherein the first receiver electrode spans the distance between the first contact and the second contact.

3. The processing system of claim 1 , wherein the first receiver electrode spans the distance between the second contact and the third contact.

4. The processing system of claim 1 , wherein the first transmitter electrode comprises a resistive material.

5. The processing system of claim 1 , wherein the transmitter electrode comprises a plurality of segments.

6. The processing system of claim 1 , wherein the first, second, and third contacts have a sheet resistance that is lower than the sheet resistance of the first transmitter electrode.

7. The processing system of claim 1 , wherein the input device is a transcapacitive sensor.

8. The processing system of claim 1 , wherein the first transmitter electrode, the first receiver electrode, and the second receiver electrode are disposed within the same plane.

9. The processing system of claim 1 , wherein the determination module is further configured to determine a two-dimensional capacitive image based on the first resulting signal and the second resulting signal.

10. The processing system of claim 1 , wherein the transmitter module is further configured to drive the second contact to produce a third voltage gradient between the second contact and the third contact; the receiver module is configured to receive, with the first receiver electrode, a third resulting signal comprising effects of the third voltage gradient; and the determination module is configured to determine the positional information based in part on the third resulting signal.

11. The processing system of claim 1 , wherein the receiver module is configured to receive, with the second receiver electrode, a fourth resulting signal comprising effects of the first voltage gradient; and the determination module is configured to determine the positional information based in part on the fourth resulting signal.

12. A finite element sensor device comprising: a first transmitter electrode comprising a first contact, a second contact, and a third contact, wherein the first contact is disposed between the second contact and the third contact; a first receiver electrode and a second receiver electrode, wherein the first receiver electrode and the second receiver electrodes are distinct from the first contact, the second contact, and the third contact; and a processing system communicatively coupled to the first transmitter electrode and the first and second receiver electrodes, the processing system configured to: drive the first contact, the second contact, and the third contact of the first transmitter electrode to produce a first voltage gradient between the first contact and the second contact and to produce a second voltage gradient between the first contact and the third contact; receive, with the first receiver electrode, a first resulting signal comprising effects of the first voltage gradient; receive, with the second receiver electrode, a second resulting signal comprising effects of the second voltage gradient; and determine positional information for a first input object located within a sensing region based on the first resulting signal and the second resulting signal.

13. The finite element sensor device of claim 12 , wherein the transmitter electrode comprises a plurality of segments.

14. The finite element sensor device of claim 12 , wherein the first, second, and third contacts have a sheet resistance that is lower than the sheet resistance of the first transmitter electrode.

15. The finite element sensor device of claim 12 , wherein the first transmitter electrode, the first receiver electrode, and the second receiver electrode are disposed within the same plane.

16. The finite element sensor device of claim 12 , wherein the processing system is further configured to determine a two-dimensional capacitive image based on the first resulting signal and the second resulting signal.

17. The finite element sensor device of claim 12 , wherein the processing system is further configured to: drive the second contact to produce a third voltage gradient between the second contact and the third contact; receive, with the first receiver electrode, a third resulting signal comprising effects of the third voltage gradient; and determine the positional information based in part on the third resulting signal.

18. The finite element sensor device of claim 12 , wherein the processing system is configured to: receive, with the second receiver electrode, a fourth resulting signal comprising effects of the first voltage gradient; and determine the positional information based in part on the fourth resulting signal.

19. A method of capacitive sensing, the method comprising: driving a first contact, a second contact, and a third contact of a first transmitter electrode to produce a first voltage gradient between the first contact and the second contact and to produce a second voltage gradient between the first contact and the third contact, the transmitter electrode comprising the first contact, the second contact, and the third contact; receiving, with a first receiver electrode, a first resulting signal comprising effects of the first voltage gradient; receiving, with a second receiver electrode, a second resulting signal comprising effects of the second voltage gradient, wherein the first receiver electrode and the second receiver electrodes are distinct from the first contact, the second contact, and the third contact; and determining positional information for a first input object located within a sensing region based on the first resulting signal and the second resulting signal.

20. The method of claim 19 , further including determining a two-dimensional capacitive image based on the first resulting signal and the second resulting signal.

21. The method of claim 19 , further including: driving the second contact to produce a third voltage gradient between the second contact and the third contact; receiving, with the first receiver electrode, a third resulting signal comprising effects of the third voltage gradient; and determining the positional information based in part on the third resulting signal.

22. The method of claim 19 , further including: receiving, with the second receiver electrode, a fourth resulting signal comprising effects of the first voltage gradient; and determining the positional information based in part on the fourth resulting signal.